The present invention is to provide a method for producing a cartilage tissue which comprises a step of providing a substrate for producing cell aggregates provided with a plurality of spots comprising a copolymer containing recurring units derived from monomers represented by the following formulae (I) and (II):

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[wherein U.sup.a1, U.sup.a, R.sup.a1, R.sup.a2 and R.sup.b are as described in the specification and claims] on a substrate having an ability to suppress adhesion of cells; a step of seeding human cartilage progenitor cells which are positive for PRRX1 protein and derived from pluripotent stem cells on the substrate; a step of producing cell aggregates by culturing the cells; and a step of culturing the aggregates to produce a cartilage tissue.

A preparation method for a copolymer includes the step(s) of contacting an olefin and an unsaturated carboxylic acid shown in Formula II or a derivative of the unsaturated carboxylic acid shown in Formula II with a catalyst and optionally a chain transfer agent for reaction in the presence of an alkane solvent to obtain the copolymer. The copolymer is a spherical and/or spherical-like copolymer.

A preparation method for a copolymer includes the step(s) of contacting an olefin and an unsaturated carboxylic acid shown in Formula II or a derivative of the unsaturated carboxylic acid shown in Formula II with a catalyst and optionally a chain transfer agent for reaction in the presence of an alkane solvent to obtain the copolymer. The copolymer is a spherical and/or spherical-like copolymer.

A preparation method for a copolymer includes the step(s) of contacting an olefin and an unsaturated carboxylic acid shown in Formula II or a derivative of the unsaturated carboxylic acid shown in Formula II with a catalyst and optionally a chain transfer agent for reaction in the presence of an alkane solvent to obtain the copolymer. The copolymer is a spherical and/or spherical-like copolymer.

A device includes an ion-conducting membrane with ion-conducting ceramic particles, and an ion-conducting polymer that surrounds the ion-conducting membrane. The ion-conducting polymer includes a pressure-deformable film with a glass transition temperature lower than an operation temperature of the device.

A device includes an ion-conducting membrane with ion-conducting ceramic particles, and an ion-conducting polymer that surrounds the ion-conducting membrane. The ion-conducting polymer includes a pressure-deformable film with a glass transition temperature lower than an operation temperature of the device.

A resist composition comprising an ammonium salt and fluorine-containing polymer offers a high sensitivity and is unsusceptible to nano-bridging, pattern collapse or residue formation, independent of whether it is of positive or negative tone. The ammonium salt and fluorine-containing polymer comprises repeat units AU having an ammonium salt structure containing a carboxylic acid anion, sulfonamide anion, phenoxide anion or enolate anion of β-diketone, the anion containing fluorine, but not iodine and bromine, and repeat units FU-1 having a trifluoromethylalcohol group and/or repeat units FU-2 having a fluorinated hydrocarbyl group.

The present invention relates to a semi-crystalline functionalized olefin copolymer composition and a process for the preparation of a semi-crystalline functionalized olefin copolymer composition.

The present invention relates to a semi-crystalline functionalized olefin copolymer composition and a process for the preparation of a semi-crystalline functionalized olefin copolymer composition.

A positive resist composition comprising a base polymer comprising recurring units (a) having the structure of an ammonium salt of a sulfonamide having an iodized aromatic ring, and recurring units (b1) having an acid labile group-substituted carboxyl group and/or recurring units (b2) having an acid labile group-substituted phenolic hydroxyl group exhibits a high sensitivity, high resolution, low edge roughness and improved CDU, and forms a pattern of good profile after exposure and development.